Background & aims: Telaprevir (VX-950), a hepatitis C virus (HCV) NS3.4A protease inhibitor, has shown strong antiviral activity in phase 1 clinical studies. Because of high levels of HCV replication and the low fidelity of HCV polymerase, selection of resistant isolates during therapy may occur.
Methods: A highly sensitive sequencing method was developed in which approximately 80 clones/sample were analyzed to identify mutations in the NS3 protease catalytic domain in HCV genotype-1-infected patients dosed with 450 mg every 8 hours, 750 mg every 8 hours, or 1250 mg every 12 hours of telaprevir for 14 days.
Results: Mutations that confer low-level resistance (V36A/M, T54A, R155K/T, and A156S) and high-level resistance (A156V/T, 36+155, 36+156) to telaprevir were detected and correlated with telaprevir exposure and virologic response. Changes in the frequency of mutations after the end of dosing showed an inverse relationship between in vivo viral fitness and resistance. In the absence of telaprevir selective pressure the majority of resistant variants were replaced by wild-type virus within 3-7 months.
Conclusions: Resistant HCV isolates are selected rapidly during therapy with the highly active protease inhibitor telaprevir. Combination therapy with pegylated interferon-alfa or other direct antiviral drugs seem mandatory to avoid developing resistance.